JP5827719B2 - Base station apparatus and call admission judgment method - Google Patents

Description

  The present invention relates to a technique for performing regulation in order to reduce a processing load in a base station apparatus eNB in a mobile communication system when traffic increases.

  In a mobile communication system in which a base station apparatus eNB and a user apparatus UE perform radio communication, a call processing signal is discarded due to a device capacity limit of the base station apparatus eNB when, for example, traffic occurs in a burst due to a disaster or an event. There is a possibility that.

  Since it is not desirable as a mobile communication service to cancel the call processing signal of the connected user equipment UE in the middle, if the call processing load exceeds the device capacity, a restriction is activated to cancel the acceptance of a new call Therefore, it is desirable to adopt a method for protecting existing calls. Patent Document 1 is a prior art document that avoids congestion by discarding a signal.

JP 2013-038573 A

  In the mobile communication system compliant with LTE, when the user apparatus UE receives an incoming call, the paging information (more specifically, paging record included in the paging message) is transmitted from the base station apparatus eNB to the user apparatus UE, The user apparatus UE that has received the paging information addressed to itself executes a random access procedure to connect to the base station apparatus eNB. FIG. 1 shows an outline from paging to random access procedure.

  First, a paging request is transmitted from the MME of the core network to the base station apparatus eNB (step 1), and paging information is transmitted from the base station apparatus eNB to the user apparatus UE (step 2). The user apparatus UE that has detected that it has received paging by the UE-ID transmits a preamble using PRACH (Physical Random Access Channel) (step 3). When the base station apparatus eNB detects the preamble, the base station apparatus eNB transmits a RACH response (RACH response) message as a response (step 4). The user apparatus UE which has received the RACH response message transmits an RRC connection request (RRC connection request) message (step 5). After receiving the RRC connection request message, the base station apparatus eNB transmits an RRC connection setup message including cell setting information for establishing a connection (step 6). The user apparatus UE that has received the RRC connection setup message associated with its own UE-ID establishes a connection. Here, the resources of the base station apparatus eNB are secured for call connection after receiving the RRC connection request message.

  Therefore, when the traffic is increased and the new call is discarded due to restriction in order to reduce the processing load of the call processing of the base station apparatus eNB, the RRC connection request message is discarded and the subsequent connection processing is performed. Desirably not. The RRC connection request message subject to restriction determination here is transmitted not only by the RRC connection request message transmitted by the user apparatus UE that has received the incoming call but also by the user apparatus UE that performs transmission, as shown in FIG. An RRC connection request message is also included.

  Calls handled by the mobile communication system include an emergency call or a priority call in addition to a call used for a normal call or the like. However, if the RRC connection request message is uniformly discarded in order to reduce the processing load on the base station apparatus eNB, the emergency call / priority call that should not be discarded may be discarded. There is a problem that there is.

  Here, the RRC connection request message transmitted from the user apparatus UE includes information indicating a priority level called “EstablishmentCause”. Based on the EstablishmentCause, for example, the high priority call is discarded so as not to be discarded. It is possible to determine whether or not.

  However, in EstablishmentCause, the call from the priority terminal to the general terminal and the call from the general terminal to the general terminal are the same normal call EstablishmentCause (MT-Access). In other words, the establishmentcause of the RRC connection request message cannot distinguish the priority difference between the call from the general terminal to the general terminal and the call from the general terminal to the general terminal, and the call from the priority terminal to the general terminal that has a high priority. Abandonment may occur in the same manner as a call from a general terminal to a general terminal.

  As described above, in the discard determination using only EstablishmentCause, there is a problem that the call discard determination may not be appropriately performed.

  The present invention has been made in view of the above points, and in a base station apparatus of a mobile communication system, a connection request transmitted from the user apparatus due to paging to the user apparatus is appropriately selected, discarded, etc. It is an object of the present invention to provide a technique capable of performing the above control.

According to an embodiment of the present invention, a base station device that is connected to a core network in a mobile communication system and communicates with a user device,
When a paging request including a user device identifier is received from the core network and the paging request satisfies a predetermined condition, the user device identifier is stored in a storage unit, and a paging message created based on the paging request is stored in the user Paging transmission control means for transmitting to the device;
A connection request message is received from the user device that has received the paging message, a determination is made as to whether or not a user device identifier that matches a user device identifier included in the connection request message is stored in the storage means, and a determination result based on, a connection request discard control means for determining whether to discard the connection request message,
The base station apparatus is provided in which the predetermined condition is that a priority of the paging request determined from priority information included in the paging request is higher than a predetermined priority .

Further, according to the embodiment of the present invention, there is provided a call admission determination method executed by a base station apparatus connected to a core network in a mobile communication system and communicating with a user apparatus,
When a paging request including a user device identifier is received from the core network and the paging request satisfies a predetermined condition, the user device identifier is stored in a storage unit, and a paging message created based on the paging request is stored in the user A paging transmission control step for transmitting to the device;
A connection request message is received from the user device that has received the paging message, a determination is made as to whether or not a user device identifier that matches a user device identifier included in the connection request message is stored in the storage means, and a determination result based on, a connection request discard control step of determining whether to discard the connection request message,
There is provided a call admission determination method in which the predetermined condition is that a priority of the paging request determined from priority information included in the paging request is higher than a predetermined priority .

  According to an embodiment of the present invention, in a base station apparatus of a mobile communication system, a connection request transmitted from a user apparatus due to paging to the user apparatus is appropriately selected and control such as discarding is performed. Is possible.

It is a figure which shows the random access procedure resulting from paging. 1 is a configuration example of a mobile communication system according to an embodiment of the present invention. It is a figure which shows a processing sequence example. It is a figure which shows the example of a RRC connection request message. It is a functional block diagram of the base station apparatus eNB. It is another functional block diagram of the base station apparatus eNB. It is a processing flow of the base station apparatus eNB. It is a figure which shows the other process sequence example. It is a figure for demonstrating the outline | summary of a paging discard determination process. It is a figure for demonstrating the outline | summary of a paging discard determination process. It is a flowchart which shows a paging discard control process.

  Embodiments of the present invention will be described below with reference to the drawings. The embodiment described below is only an example, and the embodiment to which the present invention is applied is not limited to the following embodiment. For example, the mobile communication system according to the present embodiment assumes a system based on LTE, but the present invention is not limited to LTE and can be applied to other systems.

  In the present specification and claims, “LTE” is used to mean including EPC for LTE, and not only a communication system corresponding to Release 8 or 9 of 3GPP but also Release 10, 11, or 12 of 3GPP. Alternatively, it is used in a broad sense including communication methods corresponding to the following.

(System configuration)
FIG. 2 shows a configuration example of the mobile communication system according to the embodiment of the present invention. As shown in FIG. 2, the mobile communication system according to the present embodiment includes a base station apparatus eNB that forms a cell and a user apparatus UE that is located in the cell and performs radio communication with the base station apparatus eNB. Although one base station apparatus eNB and one user apparatus UE are shown in FIG. 2, these are representative and may be plural. The base station apparatus eNB is connected to the core network CN including the MME. In the present embodiment, the mobile communication system can operate at least according to LTE. That is, the paging and RACH procedures are executed when an incoming call is received.

(Processing sequence example)
Next, a processing sequence example according to the present embodiment will be described with reference to FIG. As shown in FIG. 3, a paging request (specifically, S1-AP: Paging, but not limited to) is sent from the MME to the base station apparatus eNB (step 101).

  The paging request includes UE specific information of the user apparatus UE that is the paging destination, paging cycle, area information that is the destination of paging (information on an area where the UE may exist), and the like. The UE-specific information is, for example, S-TMSI (SAE Temporary Mobile Subscriber Identity). However, the UE-specific information is not limited to this, and the UE can be identified and any information included in the RRC connection request message can be used. It may be used as unique information.

  In the present embodiment, priority information is included in the paging request transmitted from the MME to the base station apparatus eNB. As the priority information in the present embodiment, newly defined priority information may be used, for example, Priority Level (8 levels) in MPS (Multimedia priority service) may be used. There are no particular restrictions on the number of priority levels specified by the priority information, but there are, for example, two levels of priority and non-priority, three levels of high priority, medium priority, low priority, and others (the above eight levels). . Further, the above eight stages may be interpreted and used as three stages of high priority, medium priority, and low priority. Priorities, threshold values to be described later, and the like can be set as appropriate in the base station apparatus eNB.

  As described above, in consideration of the fact that the difference between the priority terminal-originating general terminal arrival call and the general terminal originating general terminal arrival call cannot be identified in the EstablishmentCause, in the present embodiment, the priority information is: It is defined so that the priority of a call originating from a priority terminal and arriving at a general terminal can be distinguished from the priority of a call originating from the general terminal and arriving at the general terminal. That is, it is defined that the call from the priority terminal to the general terminal is given higher priority than the call from the general terminal to the general terminal. In addition, UE-specific information to be described later is stored for a call from a priority terminal to a general terminal.

  Note that if priority can be determined from information included in the paging request, priority information may not be included in the paging request in explicit. That is, priority information can be included in the implicate in the paging request.

  The base station apparatus eNB that has received the paging request determines the priority of the paging request based on the priority information included in the paging request, and stores UE-specific information included in the paging request when the priority is high (Save) (step 102). The high priority may be, for example, a case where the priority is higher than a predetermined priority threshold, or “high priority” when the priority is divided into three stages of high priority, medium priority, and low priority. It may be “priority”, or any other definition is possible. “High priority” does not necessarily correspond to the magnitude of the priority when the priority is represented by a numerical value. For example, the smaller the numerical value, the higher the priority.

  Then, the base station apparatus eNB calculates, from the information included in the paging request, the frame number for transmitting the paging information (paging record) and the subframe number in the frame (this is called the paging transmission period), and the paging transmission Paging information is transmitted in a paging message during a period (step 103).

  The user apparatus UE that has received the paging message transmits an RRC connection request message to the base station apparatus eNB through steps 3 and 4 shown in FIG. 1 (step 104). The RRC connection request message includes UE specific information. As a reference, FIG. 4 shows an ASN. One notation example is shown. S-TMSI shown in FIG. 4 is an example of UE specific information.

  The base station apparatus eNB that has received the RRC connection request message in step 104 in FIG. 3 accepts the RRC connection request message and continues the subsequent connection processing or whether to discard the RRC connection request message. Acceptance determination is performed (step 105).

  In the present embodiment, the connection request acceptance determination is basically performed based on the EstablishmentCause (reason for establishing communication) included in the RRC connection request message. Further, as a premise in step 105, for example, it is assumed that the processing load of the base station apparatus eNB is high, and the restriction that the RRC connection request message other than the priority call or the emergency call is discarded is performed.

  In Step 105, when the EstablishmentCause included in the received RRC connection request message is a priority call or emergency call (high Priority Access or Emergency), the base station apparatus eNB excludes the RRC connection request message from being regulated. Continue the connection process without discarding.

  In addition, when EstablishmentCause is MT Access and the UE-specific information included in the RRC connection request message matches the UE-specific information stored in the storage unit, the call related to the RRC connection request message is given priority. The call is determined to be a call or an emergency call, the RRC connection request message is not regulated, and the connection process is continued without being discarded.

  As described above, in both the call from the priority terminal to the general terminal and the call from the general terminal to the general terminal, the EstablishmentCause becomes MT Access, and the call from the priority terminal to the general terminal and the general terminal to the general terminal arrive only from the EstablishmentCause. However, in this embodiment, since the UE-specific information is stored in step 102 because the call from the priority terminal to the general terminal is regarded as a priority call (high priority) and UE-specific information is stored in step 102, the EstablishmentCause is set to MT Access. Even in this case, it can be determined that the RRC connection request message relates to a priority call, and it can be excluded from the restriction.

  The above determination is only an example. When the UE-specific information included in the RRC connection request message matches the UE-specific information stored in the storage means and the EstablishmentCause is a predetermined value other than MT Access, the RRC connection request message is excluded from the restriction target. You may determine that there is. The predetermined value can be arbitrarily defined. In addition, when the UE specific information included in the RRC connection request message matches the UE specific information stored in the storage unit, the predetermined information other than the EstablishmentCause included in the RRC connection request message is a predetermined value. Alternatively, it may be determined that the RRC connection request message is not regulated.

  In Step 105, when the RRC connection request message is not discarded, the base station apparatus eNB transmits an RRC connection setup message to the user apparatus UE and continues the connection process (Step 106).

(Device configuration)
FIG. 5 shows a functional configuration diagram of the base station apparatus eNB according to the present embodiment. FIG. 5 shows only functions according to the embodiment of the present invention, and the base station apparatus eNB includes functions not shown for realizing communication based on LTE.

  As illustrated in FIG. 5, the base station apparatus eNB according to the present embodiment includes a CN communication unit 10, a paging message transmission control unit 11, a UE specific information storage unit 12, a UE communication unit 13, a connection request discard determination unit 14, A connection processing unit 15 is included.

  The CN communication unit 10 communicates with a device on the core network side. The paging message transmission control unit 11 determines the priority based on the priority information included in the paging request received from the MME, and stores the UE specific information in the UE specific information storage unit 12 if the priority is high, and also the paging request Then, a paging message is created, and the paging message is transmitted to the user apparatus UE by the UE communication unit 13. The paging message transmission control unit 11 also has a function of performing paging request discard control, which will be described later.

  The UE communication unit 13 is a functional unit that performs communication with the user apparatus UE. The connection request discard determination unit 14 performs the determination in step 105 described above based on the UE specific information and the EstablishmentCause included in the RRC connection request message received from the user apparatus UE.

  The connection request discard determination unit 14 has a function of acquiring (measuring) the processing load (eg, the number of connected UEs, the CPU usage rate, the communication data amount) of the base station apparatus eNB, and performs a restriction process according to the processing load. Whether to cancel the RRC connection request message related to a call with a low priority, or in response to receiving a restriction instruction from the outside (such as an operation system), It is good also as performing a regulation process. The connection processing unit 15 is a functional unit that performs connection processing when the RRC connection request message is not discarded.

  FIG. 6 shows a configuration diagram close to an implementation example as another functional configuration diagram of the base station apparatus eNB according to the present embodiment. The base station apparatus eNB shown in FIG. 6 includes an antenna 20 that transmits and receives radio signals, an interface unit 21 connected to the antenna, a baseband processing unit 22, a device control unit 23, and an interface unit 24 connected to the core network. .

  The baseband processing unit 22 performs layer 1 and layer 2 processing. That is, the baseband processing unit 22 performs physical layer, MAC layer, RLC layer, and PDCP layer processing. The baseband processing unit 22 is realized by, for example, a DSP (Digital Signal Processor), but is not limited thereto. The device control unit 23 performs layer 3 or higher processing such as call connection control and monitoring control based on the RRC message.

  In the present embodiment, it is assumed that the device control unit 23 implements the paging message transmission control unit 11 and the connection request discard determination unit 14 which are functional units related to the present invention in the functional configuration diagram shown in FIG. But it is not limited to that. For example, the UE specific information is acquired from the paging request, stored in the UE specific information storage unit 12, the UE specific information is acquired from the RRC connection request message, and collated with the UE specific information stored in the UE specific information storage unit 12. Thus, a part of the processing may be performed by the baseband processing unit 22 such that the baseband processing unit 22 performs processing for determining whether or not they match.

(Processing flow of base station apparatus eNB)
Next, an operation example of the base station apparatus eNB will be described with reference to FIG. Also in the following example, the load on the base station apparatus eNB is in a high state (or a restriction instruction is received from the outside), and the restriction that the RRC connection request message other than the priority call or the emergency call is discarded is performed. Shall.

  The paging message transmission control unit 11 of the base station apparatus eNB receives a paging request from the MME via the CN communication unit 10 (step 201). The paging message transmission control unit 11 determines the priority of the paging request from the priority information included in the paging request. When the priority is high priority (Yes in Step 202), the paging message transmission control unit 11 is specific to the UE included in the paging request. Information is stored in the UE specific information storage unit 12 (step 203). When the priority of the paging request is not high priority (No in Step 202), the process proceeds to Step 204 without performing Step 203.

  In Step 204, the paging message transmission control unit 11 creates a paging message and transmits it to the user apparatus UE via the UE communication unit 13.

  Thereafter, the base station apparatus eNB receives the RRC connection request message from the user apparatus UE, and the RRC connection request message is passed to the connection request discard determination unit 14 (step 205).

  The connection request discard determination unit 14 checks whether or not UE specific information that matches the UE specific information (user device identifier) included in the RRC connection request message is stored in the UE specific information storage unit 12. Then, the connection request discard determination unit 14 stores the UE specific information that matches the UE specific information included in the RRC connection request message in the UE specific information storage unit 12, and the EstablishmentCause included in the RRC connection request message It is determined whether it is a predetermined value (step 206). This “predetermined value” is MT Access in the present embodiment. However, as described above, the “predetermined value” is not limited to this, and any value other than a value indicating high priority or emergency is set as the “predetermined value”. be able to. Alternatively, a plurality of “predetermined values” may be used, and determination control may be performed so as to correspond to any one of a plurality of predetermined values.

  If the determination result in step 206 is Yes, the connection request discard determination unit 14 determines that the RRC connection request message received in step 205 is not a restriction target, and passes the RRC connection request message to the connection processing unit 15. The connection process is continued (step 207).

  On the other hand, if the determination result in step 206 is No, that is, UE-specific information that matches the UE-specific information included in the RRC connection request message is not stored in the UE-specific information storage unit 12, or the EstablishmentCause is predetermined. If not, the connection request discard determination unit 14 determines whether to discard the RRC connection request message based on the value of EstablishmentCause. For example, when EstablishmentCause is Emergency or high Priority Access, the connection process is continued without being discarded, and when it is other than these, the determination is made to discard.

(Other processing sequence examples)
Next, another processing sequence example will be described with reference to FIG. As shown in FIG. 8, a paging request is sent from the MME to the base station apparatus eNB (step 301). Similar to the example shown in FIG. 3, the paging request includes priority information.

  The base station apparatus eNB that has received the paging request sets priority information in the paging information to be transmitted to the user apparatus UE based on the priority information included in the paging request (step 302), and the paging including the priority information A paging message including information is transmitted to the user apparatus UE (step 303).

  The priority information set in the paging information may be the same as or different from the priority information included in the paging request. For example, the calling side priority class (priority of the calling side UE) may be determined from the priority information included in the paging request, and the calling side priority class may be set as paging information as priority information and transmitted.

  The user apparatus UE that has received the paging message including the priority information transmits the RRC connection request message including the priority information to the base station apparatus eNB through steps 3 and 4 illustrated in FIG. 1 (step 304).

  The base station apparatus eNB that has received the RRC connection request message in step 304 in FIG. 8 accepts the RRC connection request message and continues the subsequent connection processing or whether to discard the RRC connection request message. A request acceptance determination is made (step 305).

  Also in this example, the connection request acceptance determination is basically performed based on the EstablishmentCause included in the RRC connection request message. Further, as a premise in Step 305, it is assumed that the load on the base station apparatus eNB is high and that the RRC connection request message other than the priority call or the emergency call is discarded.

  In step 305, the base station apparatus eNB does not discard the RRC connection request message when the EstablishmentCause included in the received RRC connection request message indicates a priority call or an emergency call (high Priority Access or Emergency). Continue the connection process.

  For example, even when EstablishmentCause is MT Access, if the priority information is included in the RRC connection request message and the priority information indicates a priority call or an emergency call, the RRC connection Continue the connection process without discarding the request message. For example, when the priority information is the calling side priority class and the calling side priority class is a class indicating a priority terminal or an emergency terminal, the connection process is continued without discarding the RRC connection request message.

  As described above, in both the call from the priority terminal to the general terminal and the call from the general terminal to the general terminal, the EstablishmentCause becomes MT Access, and the call from the priority terminal to the general terminal and the general terminal to the general terminal arrive only from the EstablishmentCause. However, in this example, since priority information is included in the paging message / RRC connection request message, even if EstablishmentCause is MT Access in step 305, the RRC connection request message relates to the priority call. It can be determined that it is a product and can be excluded from the restriction.

  If the RRC connection request message is not discarded in step 305, the base station apparatus eNB transmits an RRC connection setup message to the user apparatus UE and continues the connection process (step 306).

(Example of paging request discard control)
In the example described so far, the process of discarding the RRC connection request message is performed at the time of restriction, but the paging request may be discarded according to the priority. That is, it is good also as performing control which does not transmit paging information to the user apparatus UE according to a priority. The control here is mainly performed by the paging message transmission control unit 11 in the base station apparatus eNB.

  Also in this example, the paging request includes priority information. As described above, the type of priority information is not particularly limited, but in this example, the priority information is a Priority Level that can take a value of 1 to 8, and Priority Level = 1, 2, and 3. Is given high priority. High priority corresponds to, for example, priority calls and emergency calls.

  Further, priority levels are given to priority levels = 4, 5, and 6. The medium priority is made to correspond to a general voice call, for example. Furthermore, priority is given to cases where Priority Level = 7, 8 or Priority Level is not set. Low priority corresponds to, for example, a general data communication call.

  9 and 10 are diagrams for explaining an overview of the paging discard control processing executed by the paging message transmission control unit 11 in the present embodiment.

In the present embodiment, the base station apparatus eNB receives the paging request from the MME and counts the number of paging requests (increases by 1) when it is accepted without being discarded. This number is referred to as Count _P. Further, a threshold value 1 for accepting determination regarding the low priority paging request and a threshold value 2 for discarding the low priority and medium priority paging requests are set in advance.

In the present embodiment, when the paging message transmission control unit 11 determines that the paging request is accepted (not discarded), Count _p is incremented by one. The paging message transmission control unit 11 includes a periodic timer that expires at a predetermined time T (seconds), and Count _p is reset to 0 each time the timer expires (every T seconds).

  Note that the above count and threshold setting may be performed in units of base station apparatuses eNB or in units of cells managed by the base station apparatus eNB.

As shown in FIG. 9, in the present embodiment, the medium priority paging request is accepted when Count _p ≦ threshold 2. The low priority paging request is accepted when Count _p ≦ threshold 1. When threshold 1 ≦ Count _p ≦ threshold 2, the medium priority paging request is accepted, but the low priority paging request is discarded. In this example, the high-priority paging request is always accepted. However, a higher threshold may be provided to control to discard the high-priority paging request.

FIG. 10 is a diagram expressing the value of Count _p in time series. As shown in FIG. 10, Count _p becomes 0 each time the period counter expires, and increases sequentially. When the threshold value 1 is exceeded, the low-priority paging request is discarded. Discard the priority paging request. Note that the counter cycle may be determined based on, for example, the number of incoming calls per unit time in an area where the base station apparatus eNB is installed.

An example of the operation of the paging message transmission control unit 11 will be described with reference to the flowchart of FIG. First, the paging message transmission control unit 11 determines whether or not Count _p ≦ threshold 2 (step 401). If Count _p ≦ threshold 2 is not satisfied, if the paging request is not of high priority, the paging request is discarded (step 402). If Count _p ≦ threshold 2, the process proceeds to step 403. In step 403, if the paging request is other than low priority, the paging message transmission control unit 11 adds 1 to Count _p (step 404). Note that FIG. 11 is a flow showing the discard determination and the counting method within the counting cycle, and thus the processing is terminated after step 404. However, as processing of the base station apparatus eNB, the paging message transmission control unit 11 performs paging. A message is created and transmitted to the user equipment UE.

In step 403, if the paging request has low priority, the process proceeds to step 405. In step 405, it is determined whether Count _p ≦ threshold 1. If Count _p ≦ threshold 1 is not satisfied, the paging message transmission control unit 11 discards the paging request (step 407). If Count _p ≦ threshold 1, the paging message transmission control unit 11 adds 1 to Count _p without discarding (Step 406).

  In the above example, the processing load is determined by the number of received paging requests, but the processing load may be determined by another index. For example, the processing load may be determined based on the CPU usage rate of the device control unit 23 in the base station device eNB illustrated in FIG.

(Summary of the embodiment, effects, etc.)
As described above, in the present embodiment, a base station apparatus that is connected to a core network in a mobile communication system and communicates with a user apparatus, receives a paging request including a user apparatus identifier from the core network, When the paging request satisfies a predetermined condition, the user device identifier is stored in a storage unit, and a paging transmission control unit that transmits a paging message created based on the paging request to the user device, and the paging message Receiving a connection request message from the received user device, determining whether a user device identifier that matches the user device identifier included in the connection request message is stored in the storage means, based on the determination result, Decide whether to discard the connection request message The base station apparatus and a connection request discard control means.

  With this configuration, it is possible to appropriately select a connection request transmitted from the user apparatus due to paging to the user apparatus and perform control such as discarding.

  The predetermined condition is, for example, that a priority of the paging request determined from priority information included in the paging request is higher than a predetermined priority. This makes it possible to select connection requests transmitted based on a high priority paging request.

  The connection request discarding control unit stores a user device identifier that matches the user device identifier included in the connection request message in the storage unit, and the communication establishment reason included in the connection request message is a predetermined value. In some cases, it can be determined not to discard the connection request message. Thereby, for example, a call originating from a general terminal and arriving at a general terminal can be distinguished from a call originating from a general terminal and arrive at a general terminal, and can be excluded from the restriction target.

  The predetermined value is a value other than a value indicating high priority or emergency, for example. As a result, even if the reason for establishing communication is other than a value indicating high priority or urgent, high priority calls can be selected and excluded from restriction.

  Further, the paging transmission control means can discard the low priority paging request when the processing load in the base station apparatus is larger than a predetermined threshold. Thereby, the processing load of a base station apparatus can be reduced effectively. Further, the paging transmission control means can use, for example, the number of paging requests accepted without discarding as the value of the processing load. Thereby, the processing load resulting from paging can be calculated | required appropriately.

  Although the embodiments of the present invention have been described above, the disclosed invention is not limited to such embodiments, and those skilled in the art will understand various variations, modifications, alternatives, substitutions, and the like. Will. Although specific numerical examples have been described in order to facilitate understanding of the invention, these numerical values are merely examples and any appropriate values may be used unless otherwise specified. The classification of items in the above description is not essential to the present invention, and the items described in two or more items may be used in combination as necessary, or the items described in one item may be used in different items. It may be applied to the matters described in (if not inconsistent). The boundaries between functional units or processing units in the functional block diagram do not necessarily correspond to physical component boundaries. The operations of a plurality of functional units may be physically performed by one component, or the operations of one functional unit may be physically performed by a plurality of components. For convenience of explanation, the base station apparatus has been described using a functional block diagram, but such an apparatus may be realized by hardware, software, or a combination thereof. Software that executes an operation corresponding to the processing described in the embodiment of the present invention (executed by a processor included in the base station apparatus) is a random access memory (RAM), a flash memory, a read-only memory (ROM), or an EPROM. , EEPROM, register, hard disk (HDD), removable disk, CD-ROM, database, server, or any other suitable storage medium. The present invention is not limited to the above embodiments, and various modifications, modifications, alternatives, substitutions, and the like are included in the present invention without departing from the spirit of the present invention.

UE user apparatus eNB base station apparatus 10 CN communication unit 11 paging message transmission control unit 12 UE specific information storage unit 13 UE communication unit 14 connection request discard determination unit 15 connection processing unit 20 antenna 21 interface unit 22 baseband processing unit 23 device control Part 24 Interface part

Claims (7)

A base station device connected to a core network in a mobile communication system and communicating with a user device,
When a paging request including a user device identifier is received from the core network and the paging request satisfies a predetermined condition, the user device identifier is stored in a storage unit, and a paging message created based on the paging request is stored in the user Paging transmission control means for transmitting to the device;
A connection request message is received from the user device that has received the paging message, a determination is made as to whether or not a user device identifier that matches a user device identifier included in the connection request message is stored in the storage means, and a determination result based on, a connection request discard control means for determining whether to discard the connection request message,
The base station apparatus characterized in that the predetermined condition is that a priority of the paging request determined from priority information included in the paging request is higher than a predetermined priority . The connection request discarding control unit stores a user device identifier that matches the user device identifier included in the connection request message in the storage unit, and the communication establishment reason included in the connection request message is a predetermined value. 2. The base station apparatus according to claim 1, wherein in some cases, it is determined not to discard the connection request message. The base station apparatus according to claim 2 , wherein the predetermined value is a value other than a value indicating high priority or emergency. The paging transmission control unit, when the processing load in the base station apparatus is greater than a predetermined threshold value, to any one of claims 1 to 3, wherein the discarding the paging request low priority The base station apparatus as described. The base station apparatus according to claim 4 , wherein the paging transmission control unit uses the number of paging requests accepted without discarding as the value of the processing load. A call admission determination method executed by a base station device connected to a core network in a mobile communication system and communicating with a user device,
When a paging request including a user device identifier is received from the core network and the paging request satisfies a predetermined condition, the user device identifier is stored in a storage unit, and a paging message created based on the paging request is stored in the user A paging transmission control step for transmitting to the device;
A connection request message is received from the user device that has received the paging message, a determination is made as to whether or not a user device identifier that matches a user device identifier included in the connection request message is stored in the storage means, and a determination result based on, a connection request discard control step of determining whether to discard the connection request message,
The predetermined condition is that the priority of the paging request determined from the priority information included in the paging request is higher than a predetermined priority . In the connection request discarding control step, the base station apparatus stores a user apparatus identifier that matches a user apparatus identifier included in the connection request message in the storage unit, and includes a communication included in the connection request message. The call admission judgment method according to claim 6 , wherein when the establishment reason is a predetermined value, it is determined not to discard the connection request message.

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